1.2a Natural units (optional)

Course video 4 of 77

During this first module, we will give an overview of the objects studied in particle physics, namely matter, forces and space-time. We will discuss how one characterizes the strength of an interaction between particles using the concept of cross section, which is central to our subject. At the end of this module, we will visit the laboratory of the nuclear physics course at University of Geneva to see an example of how one measures the strength of a reaction in practice.

This course introduces you to subatomic physics, i.e. the physics of nuclei and particles.
More specifically, the following questions are addressed:
- What are the concepts of particle physics and how are they implemented?
- What are the properties of atomic nuclei and how can one use them?
- How does one accelerate and detect particles and measure their properties?
- What does one learn from particle reactions at high energies and particle decays?
- How do electromagnetic interactions work and how can one use them?
- How do strong interactions work and why are they difficult to understand?
- How do weak interactions work and why are they so special?
- What is the mass of objects at the subatomic level and how does the Higgs boson intervene?
- How does one search for new phenomena beyond the known ones?
- What can one learn from particle physics concerning astrophysics and the Universe as a whole?
The course is structured in eight modules. Following the first one which introduces our subject, the modules 2 (nuclear physics)
and 3 (accelerators and detectors) are rather self contained and can be studied separately. The modules 4 to 6 go into more depth about matter and forces as described by the standard model of particle physics. Module 7 deals with our ways to search for new phenomena. And the last module introduces you to two mysterious components of the Universe, namely Dark Matter and Dark Energy.